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| Komodo dragons have venomous bite | Komodo dragons have venomous bite |
| (about 2 hours later) | |
| The Komodo dragon has a bite tinged with a deadly venom, according to researchers. | The Komodo dragon has a bite tinged with a deadly venom, according to researchers. |
| Previously it was thought the Komodo's mouth harboured virulent bacteria that quickly infected and subdued prey. | |
| But an analysis of Komodo specimens has shown a well-developed venom gland with ducts that lead to their large teeth. | But an analysis of Komodo specimens has shown a well-developed venom gland with ducts that lead to their large teeth. |
| The Proceedings of the National Academy of Sciences report shows that rather than using a strong bite force, Komodos keep a vice-like grip on their prey. | |
| In this way, the venom can seep into the large wounds they make with their teeth. | In this way, the venom can seep into the large wounds they make with their teeth. |
| The work is a follow-up to a 2006 study by Bryan Fry of the Australian Venom Research Unit at the University of Melbourne. | The work is a follow-up to a 2006 study by Bryan Fry of the Australian Venom Research Unit at the University of Melbourne. |
| The study showed that known venomous lizards, such as the Gila monster of the south-western US, were in the same lineage as Komodo dragons. | |
| It went on to describe how the venom systems in the lizards and snakes actually came from a common ancestor. | |
| Members of the same team have now used a computer simulation to model the skulls of Komodo dragons. They found that their bite was only one-sixth as strong as that of the Australian saltwater crocodile, which has a similarly-sized skull. | |
| Instead, Komodo skulls seem optimised to withstand stress along their length - that is, to resist prey that is pulling away. | Instead, Komodo skulls seem optimised to withstand stress along their length - that is, to resist prey that is pulling away. |
| Further, the team took MRI scans of Komodo heads, identifying a large venom gland and ducts that lead to spaces between the animals' teeth. | Further, the team took MRI scans of Komodo heads, identifying a large venom gland and ducts that lead to spaces between the animals' teeth. |
| Dissection of the duct showed toxins that are known to lower blood pressure and act as anti-coagulants - causing prey to go into shock and bleed to death. | |
| 'Radical' suggestion | 'Radical' suggestion |
| Megalania may have been the largest venomous animal in history | Megalania may have been the largest venomous animal in history |
| The researchers suggest that Komodo dragons produce a small amount of comparatively weak venom, and the delivery method is not the most efficient. | The researchers suggest that Komodo dragons produce a small amount of comparatively weak venom, and the delivery method is not the most efficient. |
| "These lizards make a huge wound using their teeth; that's good enough to get the venom in," says Christofer Clemente, a comparative physiologist at the University of Cambridge and a co-author of the study. | "These lizards make a huge wound using their teeth; that's good enough to get the venom in," says Christofer Clemente, a comparative physiologist at the University of Cambridge and a co-author of the study. |
| "They are robust enough that they can hang on to prey. Other groups like snakes are much more fragile - they have to bite something and let it go. So they have these hollow fangs and more deadly venom." | |
| The findings would put another leading theory for Komodo predation to rest: that bacteria present in their mouths quickly infect prey. | |
| That suggestion was first posited briefly in a seminal book by Walter Auffenberg in 1981. However, more recent experiments have failed to show a bacterium species common to all Komodos. | That suggestion was first posited briefly in a seminal book by Walter Auffenberg in 1981. However, more recent experiments have failed to show a bacterium species common to all Komodos. |
| "That whole theory has been touted around for years, but has never really been proven," said Ian Stephen, curator of herpetology at the London Zoo. | "That whole theory has been touted around for years, but has never really been proven," said Ian Stephen, curator of herpetology at the London Zoo. |
| Dr Stephen told the BBC that the suggestion of the venomous nature of Komodo dragons was a "radical" one that raises the question of why the venom gland had not been discovered in dissected specimens before now. | Dr Stephen told the BBC that the suggestion of the venomous nature of Komodo dragons was a "radical" one that raises the question of why the venom gland had not been discovered in dissected specimens before now. |
| But, he said of the paper, "it is very interesting and it does all seem to make sense". | |
| The results also suggest that the now-extinct Megalania - a close relative of Komodos that grew to seven metres in length - would also have been venomous. It would therefore have been the largest venomous animal ever to have lived. |
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